Power line spreading device

ABSTRACT

A power line spreading device used to separate the two conductor lines of a twisted pair conductor. The spreading device includes a substantially conical body and a handle. The body further includes a groove in an outer surface orientated in a conic spiral along a length of the body wherein the diameter of the conical body gradually increases from a first end to a second end. The spreading device is engaged with the two conductor lines proximate the first end, rotated about an axis of rotation whereby the groove acts to draw the two conductor lines from a first end toward a second end of the body. The gradual increase in diameter of the spreading device causes and maintains a desired spread distance between the two conductor lines of a twisted pair connector.

CROSS-REFERENCE TO RELATED APPLICATIONS

None.

BACKGROUND OF THE INVENTION

To more efficiently transmit electricity, a twisted pair conductor hasbeen utilized by many utility companies. A twisted pair conductorgenerally comprises two standard, round conductor lines twisted aroundeach other at approximately nine foot intervals. A twisted pairconductor is beneficial because it has lower maintenance, operating andinspection costs, a lower operating temperature, and reduces galloping.Further, a twisted pair conductor effectively resists wind inducedmotion in two ways. First, the constantly varying diameter due to thetwisting drastically inhibits resonant vibration. Second, the lowtorsion stiffness of this configuration absorbs and dissipates motioncausing wind forces. Common brands of a twisted pair conductorcommercially available are T-2® and VR2®.

The use of the twisted pair conductor has consistently increased sinceits introduction. One problem inherent in the use of the twisted pairconductor is that in order to install a connector or other devicedirectly to one of the individual conductor lines, the two twistedconductor lines must be separated by a given amount to facilitate theinstallation. When installed and in use, a twisted pair conductor has aninherent tension force due to the weight of the conductor lines causingsag between electric poles or supports, thereby resulting in a tensionstress in each of the two conductor lines. In addition, a twisted pairconductor may be pre-tensioned to reduce its sag between supports. Thetension stress in the conductor lines generally resists the separationand spreading of the two conductor lines. Further, because two conductorlines are twisted together to form the twisted pair conductor, the twoconductor lines inherently resist separation. The inherent stiffness ofeach individual conductor line combined with the tension force makes itvirtually impossible to separate the wires sufficiently by hand.

In use, the combination of the tension and twisting of the two conductorlines of a twisted pair conductor is such that an electric lineinstallation or maintenance person will only be able to manuallyseparate the two conductor lines a small distance, often only aroundone-quarter inch (¼″), using their hands. Any manual spreading, however,is of little or no use because the spread distance required to installconnectors and other devices is greater than the distance a person canseparate the wires using their hands. Further, because both of theuser's hands are required to separate the lines, a two-person crew isnecessary to perform any connection or other device installationmanually. Thus, some mechanical means is necessary to allow a lineinstallation or maintenance person to individually separate the twoconnector lines of a twisted pair conductor and install a connector orother known device.

Currently, line installation or maintenance personnel use a woodenstake, a screwdriver, or a hammer handle to separate or pry the twotwisted conductor lines apart. All of these make-shift separators havenegative aspects. All three require the user to push the stake,screwdriver, or handle between the two conductor lines with asubstantial force to effectively wedge the tensioned lines apart. Inaddition, in order to remove these tools, the user must pull with asubstantial force to retrieve the tool from between the two tensionedconductor lines. Not only is this method physically demanding, but thismethod of brute force operation poses dangers to users in the field,particular if they are suspended in a basket or by a harness above theground. The force required may put the user at risk of losing theirbalance as the tool may slip or undergo other drastic resistance changesduring the linear pushing or pulling. When a user loses their balance,they are not only in danger of falling, but also at risk of directlytouching a live high-voltage electric wire and/or grounding themselveswhen trying to catch their balance. These conditions put the life of theline installation or maintenance person at risk.

Further, all of these adapted tools—the stake, screwdriver, and hammerhandle—generally result in nick marks, scarring, dents, or other damageto the surface of the conductor lines. The scarring and nick marksresult in increasing the resistance in the conductor lines and, inaggregate, can result in substantial energy loss throughout thetransmission system. Further, a nick or dent in the outer surface of awire creates a position of stress concentration which may result in aweak spot on the line that is more vulnerable to failure during anextreme weather event.

Therefore, a need exists for a conductor line spreading device thatallows an operator to easily spread the two twisted conductor lines of atwisted pair conductor without exerting a substantial amount of effortand in a safe, effective, and efficient manner. Accordingly, anadditional need exists for a conductor line spreading device that allowsa single person to accomplish the task and that eliminates any scarringand nicking of the conductor lines to help maintain the efficiency andreliability of the electricity distribution network.

SUMMARY OF THE INVENTION

The present invention is generally directed to a spreading device usedto separate the two conductor lines of a twisted pair conductor. Atwisted pair conductor generally comprises two standard, round conductorlines twisted around each other at approximately nine foot intervals andis generically referred to as power line. Spreading the two conductorlines apart is required to perform maintenance and repairs of existingtwisted pair conductors, or to tie a new line into an existing conductorline. The present power line spreading device includes a substantiallyconical body and may include a handle. The body includes a first end anda second end wherein the diameter of the conical body increases from thefirst end to the second end. The body further includes a groove on anouter surface orientated in a conic spiral along a length of the body.The body is generally made of a non-conductive material, but, oneembodiment includes a body being made from a conductive material whenused with non-live wires.

When using the present conductor line spreading device, the first end orterminal end of the body is positioned between the two conductor linessuch that the two conductor lines engage and contact the groove. Thebody of the spreading device is then rotated about its longitudinal axisusing the handle. The orientation of the groove allows the groove toengage the two conductor lines and gradually change the relativeposition of the lines with respect to the spreading device from thefirst end toward the second end. The change in relative position in adirection toward the second end of the spreading device causes anincrease in the distance between the two conductor lines correspondingto the increase in the diameter of the body of the present spreadingdevice from the first end to the second end.

The handle can be integral with the body or may be a distinct elementcoupled to the body. Generally, a person manually rotates the body viaapplying torsional force to the handle by hand. The handle may includean abrasive or roughened portion to improve gripping by a user. However,the device may also be configured to engage a ratchet, wrench,fiberglass rod, “hot-stick” or a pneumatic, electric, or cordless drillor driver. In such an embodiment, the ratchet, wrench, fiberglass rod,“hot-stick” or the pneumatic, electric, or cordless drill or driverapplies a torsional force to the device to cause rotation of the bodyabout its longitudinal axis.

The body of the present spreading device can be made to achievedifferent second end portion diameters so as to achieve differentspreading distances depending upon the particular application.

Other aspects and advantages of the present invention will be apparentfrom the following detailed description of the preferred embodiments andthe accompanying drawing figures.

BRIEF DESCRIPTION OF THE DRAWING

The accompanying drawings form a part of the specification and are to beread in conjunction therewith, in which like reference numerals areemployed to indicate like or similar parts in the various views, andwherein:

FIG. 1 is a top view of a power line spreading device constructed inaccordance with the teachings of one embodiment of the presentinvention;

FIG. 2A is a side view of the first end of the power line spreadingdevice of FIG. 1 to show the power line spreading device's wedged end;

FIG. 2B is a cross-sectional view of the first end of the power linespreading device of FIG. 1 cut along line 2B-2B of FIG. 2A to illustratethe power line spreading device's wedged end;

FIG. 3A is a cross-section view of one embodiment of a handle cut alongthe line 3A-3A of FIG. 1 constructed in accordance with the teachings ofthe present invention;

FIG. 3B is a cross-section view of another embodiment of a handle foruse with the present power line spreading device constructed inaccordance with the teachings of the present invention;

FIG. 4A is a side view of another embodiment of the present power linespreading device constructed in accordance with the teachings of thepresent invention;

FIG. 4B is a side view of another embodiment of the present power linespreading device constructed in accordance with the teachings of thepresent invention; and

FIG. 5 is a top perspective view of the power line spreading device ofFIG. 1 engaged with a pair of twisted power lines.

DETAILED DESCRIPTION OF THE INVENTION

The following detailed description of the present invention referencesthe accompanying drawing figures that illustrate specific embodiments inwhich the invention can be practiced. The embodiments are intended todescribe aspects of the invention in sufficient detail to enable thoseskilled in the art to practice the invention. Other embodiments can beutilized and changes can be made without departing from the scope of thepresent invention. The present invention is defined by the appendedclaims and the description is, therefore, not to be taken in a limitingsense and shall not limit the scope of equivalents to which such claimsare entitled.

Turning to FIG. 1, an embodiment of the present power line spreadingdevice 10 is illustrated. Power line spreading device 10 generallycomprises a substantially conical body 12 and a handle 14. Body 12includes a first end 16, a second end 18, an outer face 20, a lengthL_(b), and a diameter D_(b). Body 12 also includes at least one spiralgroove 22 in outer face 20, and at least one corresponding thread 24wherein both groove 22 and thread 24 are substantially continuous alongthe body's length L_(b).

Length L_(b) of body 12 may range from three inches (3″) or less totwenty inches (20″) or more, although any length outside of this rangeis likewise anticipated depending upon the particular application. Oneembodiment includes a length L_(b) ranging from about eight inches (8″)to about sixteen inches (16″). Another embodiment includes a lengthL_(b) of about twelve inches (12″). The principle of the invention,however, is not dependent upon the length L_(b) of body 12 and, as such,a person of skill in the art will appreciate that length L_(b) of body12 shall not be limiting.

First end or terminal end 16 is generally narrower than second end 18.Diameter D_(b) varies along the length L_(b) of body 12 wherein diameterD_(b) at first end 16 is less than diameter D_(b) at second end 18. Thediameter D_(b) at first end 16 may range from about one-quarter inch(¼″) to about two inches (2″), while the diameter D_(b) at second end 18may range from about one inch (1″) to about six inches (6″) or more. Thediameter D_(b) at second end 18 may correspond to the diameter ofpre-manufactured round stock material used in the manufacture of body12. Alternatively, diameter D_(b) at second end 18 may correspond to aspread distance desired by a particular user. Again, diameter D_(b) fromthe first end 16 to the second end 18 can vary depending upon thedesired spread distance and/or the particular application.

Generally, diameter D_(b) uniformly increases from first end 16 tosecond end 18 along length L_(b) such that the shape defined by outersurface 20 substantially corresponds to a cone having a vertex angle αranging from three degrees (3°) to forty-five degrees (45°), althoughother ranges are also anticipated depending upon the particularapplication. In one embodiment, the shape defined by outer surface 20 ofbody 12 corresponds to a cone having vertex angle α ranging from fivedegrees (5°) to fifteen degrees (15°). Preferably, the shape defined byouter surface 20 of body 12 corresponds to a cone having vertex angle αof around ten degrees (10°). A person of skill in the art willappreciate that as the vertex angle increases, the number of rotationsrequired to obtain the desired spread distance D_(s) (FIG. 5) decreases,however, the torsional force required to create the desired spreaddistance D_(s) increases.

In addition, one embodiment of first end 16 includes a tip portionhaving a smooth conical shape which does not include a groove. Analternative embodiment includes groove 22 extending fully to the tip ofthe cone at first end 16. Another embodiment of first end 16 of powerline spreading device 10 includes at least a first wedge face 26, andmay include a second wedge face 28 opposite the first wedge face 26 asillustrated in FIG. 2A, to form a wedge at first end 16 to facilitateinserting spreading device 10 between two power lines. In thisembodiment, the remaining portion of outside surface 20 retains anarcuate, substantially conical shape as shown in FIG. 2B. In anothersimilar embodiment, the remaining portions adjacent to first and secondwedge faces 26 and 28 of first end 16 are also planar resulting in asubstantially rectangular cross-section (not shown).

As further shown in FIG. 2A, the first wedge face 26 and second wedgeface 28 are planar and intersect each other at an angle β. Intersectionangle β may correspond to vertex angle α, and as such, intersectionangle may range from about three degrees (3°) to about forty-fivedegrees (45°). Embodiments of spreading device 10 may includeintersection angle β being identical to, greater than, or less thanvertex angle α. However, intersection angle β preferably does not varymore than 5 degrees (5°) from vertex angle α. A further alternativeembodiment includes first wedge face 26 and second wedge face 28 beingarcuate or curved as shown in FIG. 4A to define a “spooned” or concavedend portion 30 of first end 16. This embodiment will generally have asimilar cross-section to the embodiment shown in FIG. 2B.

Groove 22 is generally defined by the thread 24 located on either sideof groove 22 as shown in FIG. 1. Groove 22 and thread 24 generallyfollow a continuous conic spiral path along the length L_(b) of body 12wherein the centers 32 of threads 24 may be spaced apart at a spacing S.Groove 22 may have an arched profile defined by a width W_(g) and adepth D_(g). Width W_(g) of groove 22 may generally range from aboutone-quarter inch (¼″) to about two inches (2″) and one embodimentincludes a width W_(g) of about one-half inch (½″). Groove depth D_(g)may generally range from about one-sixteenth inch ( 1/16″) to about oneinch (1″). Groove depth D_(g) may also vary along the length of groove22 such that the groove depth D_(g) gradually increases from a smallerdepth D_(g) at the first end 16 to a larger depth proximate said secondend 18. An embodiment of spreading device 10 may also include groove 22having a “V” shape or square shape with similar ranges of width W_(g)and depths D_(g). Groove width W_(g) and depth D_(g) may correspond toor be configured to receive a certain diameter of power line or othertensioned wire being separated by spreading device 10 and such widthW_(g) and depth D_(g) may vary accordingly depending upon the particularapplication.

FIG. 4A illustrates one embodiment of spreading device 10′ similar tothe embodiment shown in FIGS. 1-3B but having two grooves in a doubleconical spiral configuration. Such an embodiment includes a first groove42 and a first thread 44 being started proximate first wedge face 26 anda second groove 46 and a second thread 48 starting proximate secondwedge face 28. First groove 42 and adjacent second groove 46 areconfigured in a double conic spiral along the length L_(b) of body 12.First groove 42 and second groove 46 are generally delineated by firstthread 44 on one side and second thread 48 on the other side as shown inFIG. 4A.

Spacing S may also be referred to as “thread spacing” being defined inthreads-per-inch. Spacing S of thread 24 of the present invention mayrange from about one-half (½) threads-per-inch to about three (3)threads-per-inch. One embodiment may include groove 22 at a spacing S ofabout one (1) thread-per-inch to about one-and-one-half (1½)threads-per-inch. Still another embodiment includes groove 22 configuredto a spacing S of about one and one-quarter (1¼) threads-per-inch.Groove 22 may be configured to spread conductor lines when torsion forceis applied in either a clockwise or counter clockwise direction.However, it is preferable that the configuration of groove 22 matchesknown rotation directions for other threaded members. Accordingly,groove 22 of spreading device 10 is preferably configured to require aclockwise rotation to be applied to advance spreading device 10 tocreate a spread distance D_(s) (FIG. 5) between two conductor lines and,as such, an opposite counter-clockwise rotation to be applied to reducespread distance D_(s) and remove spreading device 10 from engagementwith the conductor lines.

As further shown in FIG. 1, thread 24 is a conic spiral substantiallyalong the length L_(b) of body 12. Thread 24 has a width W_(t) thatranges from about one-sixteenth inch ( 1/16″) to about two inches (2″).In one embodiment, width W_(t) of thread 24 ranges from about one-eighthinch (⅛″) to about one-half inch (½″). Generally, width W_(t) of thread24 plus the groove width W_(g) equal spacing S.

Body 12 of the spreading device of the present invention may be of anymaterial known in the art. One embodiment of spreading device 10 may beused with live conductor lines while other embodiments may be used withnon-live wires. When used with live wires, body 12 is preferably amaterial that is electrically non-conductive or an insulator including,but not limited to, ultra-high-molecular-weight (“UHMW”) polyethylene,low-density polyethylene, high-density polyethylene, wood, glass,porcelain, and composite polymer materials or any other suitablematerial now known or hereafter discovered. The present spreading devicemay also be used with non-live conductor lines such as during theinstallation of new power lines or power grid or repairs in off networklines. In this case and in addition to the non-conductive materialsabove, body 12 may be constructed from a metallic material including,but not limited to, aluminum, steel, brass, copper or any other knownmetal. A preferred embodiment includes body 12 being UHMW polyethylene.UHMW polyethylene is a material very well suited for body 12 ofspreading device 10 as it is non-conductive, lightweight, non-brittle,able to be machined, able to hold a smooth finish to provide a lowfriction surface, durable enough to not deform under the compressiveforce of the separated tensioned wires, and soft enough not to nick ordamage conductor lines or other tensioned wire during use. Body 12 can,however, be made from any material that provides one or more of theabove-identified properties and still be within the scope of the presentinvention.

Body 12 may be machined from stock materials, or it can be cast, forged,molded, extruded, or blown. One embodiment includes machining theconical shape from a piece of round stock on a lathe. The machining maybe done manually, or may be performed by any automatic machining systemknown in the art. Automatic manufacturing may be performed in a CAD/CAMsystem. An alternative method of manufacture includes injection molding,compression molding, resin transfer molding, transfer molding ofcomposite materials or metals, and any other molding method know in theart. In addition to the methods identified above, body 12 may bemanufactured using any manufacturing method known in the art capable offorming body 12 as described herein.

Handle 14 may be integral with body 12 as shown in FIG. 1. An embodimentof spreading device 10 includes handle 14 having a length L_(h) rangingfrom about one-quarter inch (¼″) to about ten inches (10″), althoughother lengths may likewise be utilized. Embodiments including handle 14being unitary with body 12 wherein spreading device 10 is manufacturedthrough machining a single piece of stock, or molding the entirespreading device 10 in a single mold. In another embodiment, handle 14may be a distinct piece that is coupled to or integral with body 12 asshown in FIG. 4A. Still another embodiment includes a handle that isremovably engaged or coupled with body 12 wherein second end 18 includesa housing configured to receive a portion of the handle and the handlecan be removed for storage or transport. The handle length L_(h) inembodiments wherein the handle is integral to body 12 may preferablyrange from about three inches (3″) to about six inches (6″), though anylength L_(h) may be provided and is within the scope of the presentinvention.

FIGS. 3A and 3B illustrate embodiments of handle 14 wherein handle 14 isintegral with body 12. FIG. 3A illustrates an embodiment of spreadingdevice 10 wherein handle 14 includes a plurality of planar faces 34 andwherein a portion of the rounded outer face 20 of a piece of roundedstock material is mechanically removed or left off to form a planar face34. Therefore, outer face 20 includes alternating planar 34 and curved20 surfaces. FIG. 3A illustrates an embodiment wherein eight planarfaces 34 are included and alternate with a portion of curved outer face20. However, any number of planar faces 34 may be utilized and arewithin the scope of the present invention. FIG. 3B illustrates anotherembodiment of spreading device 10 wherein handle 14 includes a pluralityof planar faces 34 and wherein the planar faces 34 form a polygon. FIG.3B illustrates an embodiment wherein eight planar faces 34 form anoctagon. However, any number of faces may be utilized and are within thescope of the present invention. In another embodiment, planar faces 34may be positioned and located to engage a pair of pliers, wrench,ratchet, socket, or a motorized driver such as an electric, pneumatic,or cordless power tool.

An embodiment of the spreading device of the present invention includesbody 12 being molded around the handle. FIG. 4A illustrates anembodiment of spreading device 10′ including an arched handle 36 beingcoupled to, or molded with, body 12 using any method known in the art. Aperson of skill in the art will appreciate that handle 14 or 36 may beone of any suitable handle shape, and all such handle shapes known orfurther developed are within the scope of the present invention. Afurther embodiment of handle 14 or 36, not shown, includes a hex-head,square, bolt or other projection coupled to or projecting from thesecond end 18 of body 12 to allow body 12 to be twisted using a pair ofpliers, ratchet, socket, wrench, pair of vise-grips, or motorized driversuch as an electric, pneumatic, or cordless power tool. Yet anotherembodiment of handle 14, not shown, includes handle 14 being a metal rodof round or polygonal cross-section coupled to, or molded with, body 12such that the metal rod may be received into a drill or driver chuck andsaid body 12 may be turned using an electric, pneumatic, or cordlessdrill, driver or other power tool.

A further embodiment of the handle includes an eye 37 integral with orcoupled to second end 18 of body 12 as shown in FIG. 4B. Eye 37 isgenerally configured to engage with a rod (not shown) or a tip sectionthereof (not shown). The rod is preferably a non-conductive materialsuch as fiberglass. Such fiberglass rods are commonly referred to as“hot sticks” in the power line installation and maintenance industry.The rod may be of a single length or may alternatively include multiplerod sections that are extendable through telescoping, folding, or anycombination thereof. Eye 37 may be completely closed as shown in FIG. 4Bor may be slightly open to more resemble the appearance of a hook. Eye37 may be configured such that an outer diameter of the rod is less thanthe opening of eye 37 thereby allowing the rod to pass through the eye37. A user may insert the rod through the eye 37 and use the rod to turnbody 12. Eye 37 may also be configured to engage with a tip section ofthe rod. Any tip section now known or developed in the future that areconfigured to engage with eye 37 wherein a user utilizes the rod and tipto turn body 12 is within the scope of the present invention.

An alternative embodiment not shown, but similar in appearance to theembodiments shown in FIGS. 1-3B, includes second end 18 of body 12 beingconfigured to engage cooperatively with a device for turning thespreading device. One embodiment of second end 18 of body 12 may furtherinclude one or more planar surfaces 34 and have a cross-section similarto handle 14 in FIGS. 3A and 3B. These planar surfaces 34 on second end18 may be positioned and located to facilitate cooperative engagementwith a device for turning the spreading device. A device for turning thespreading device of the present invention may be a human hand and arm, ahandle, a pair of pliers, a ratchet, a socket, a wrench, a pair ofvise-grips, a screw-driver, or an electric, pneumatic, or cordlessdrill, driver or other power tool, or any tool now known or hereafterdeveloped.

Handle 14 or 36 may be of an ergonomic design allowing the handle to beeasily gripped by a human hand and may also include a textured orroughened portion to further facilitate gripping by a user. Oneembodiment may include an abrasive applied to or molded within at leasta portion of handle 14. The interface between body 12 and handle 14, 36,or 37 must be sufficient to transfer the torsional force applied by auser to body 12.

Handle 14, 36 or 37 may be of any material known in the art including,but not limited to, UHMW polyethylene, low-density polyethylene,high-density polyethylene, wood, aluminum, steel, brass, copper, glass,porcelain, and other metals or composite polymer materials. Thespreading device 10 may be used with live conductor lines and,therefore, a material that is electrically non-conductive or aninsulator is preferable. One embodiment includes handle 14, 36, or 37being made of UHMW polyethylene. An embodiment of handle 14 or 36 beingmetallic may also include an insulating layer of rubber or plasticaround at least the portion of the metallic handle to be held by theuser. Handle 14, 36 or 37 can, however, be made from any material knownin the art that provides one or more of the above-identified propertiesand still be within the scope of the present invention.

Handle 14, 36 or 37 may be machined from stock materials, or it may becast, forged, molded, extruded, or blown. The machining may be donemanually, or may be performed by an automatic machining system as knownin the art. Automatic manufacturing may be performed in a CAD/CAMsystem. An alternative method of manufacture includes injection molding,compression molding, resin transfer molding, transfer molding ofcomposite materials or metals, and any other suitable molding method nowknown or hereafter discovered.

FIG. 5 illustrates one embodiment of spreading device 10 of the presentinvention in use. Spreading device 10 is used to mechanically separatetwo tensioned lines, and in one embodiment, the two conductor lines 38of a twisted pair conductor that is currently used in the commercialtransmission of electricity. In use, a user inserts first end 16 betweenthe two conductor lines 38 of the twisted pair conductor. As describedabove, an embodiment of spreading device 10 may include machined endportions 26 and 28 to facilitate insertion of the device. As shown inFIGS. 2 and 4, machined end portions 26 and 28 are generally configuredto make it easier for a user to insert spreading device 10 between twoconductor lines 38 of the twisted pair conductor to begin the separationand spreading of the two conductor lines 38. First end 16 having a wedgeor curved profile provides a substantially flat and narrow surfaceallowing the user to wedge spreading device 10 between two conductorlines 38 such that the power lines are positioned on spreading device 10and such that the conductor lines begin to gradually separate and engagegroove 22.

Now referring back to FIG. 5, once first end 16 of spreading device 10is between two conductor lines 38, spreading device 10 is rotated aboutlongitudinal axis 40 to advance the spreading device with respect to theconductor lines 38. The direction of rotation will correspond to theconfiguration of groove 22 and thread 24 provided. Groove 22 generallyreceives a portion of conductor lines 38 and outer surface 20 of groove22 engages conductor lines 38 as shown in FIG. 5. Rotation of spreadingdevice 10 about longitudinal axis 40 linearly advances conductor lines38 with respect to body 12 in a direction from first end 16 towardsecond end 18. It is an advantage for body 12 to be a material having asmooth surface that provides low friction resistance to facilitate therotation of body 12 with respect to the conductor lines 38. As conductorlines 38 linearly advance with respect to body 12 such that conductorlines 38 move closer to second end 18, the increase in diameter D_(b)along the length L_(b) of body 12 gradually increases the spreaddistance D_(s) between conductor lines 38. A user will continue torotate body 12 until the desired spread distance D_(s) is obtained. Aperson of skill in the art will appreciate that varying the vertex angleα and thread spacing S provides a spreading device 10 that requires moreor less force to rotate the body 12 thereby requiring more or lessrotations to provide the same spread distance D_(s).

As the spread distance D_(s) between conductor lines 38 increases, thetension in each conductor line 38 causes an increased compressive forcegenerally normal to outer surface 20 of spreading device 10. Becausespreading device 10 has a substantially conical shape and thecompression force is applied generally normal to outer face 20, thecompressive force necessarily includes a thrust component force in thedirection of the longitudinal axis 40 of body 12. Thread 24 resists thisthrust force component by restraining spreading device 10 from slidinglinearly in relation to the conductor lines 38. In addition, thefriction resulting from the compression force is generally sufficient tomaintain the position of spreading device 10 relative to conductor lines38 by itself.

Thus, the configuration of groove 22 and thread 24 improves the overalleffectiveness of the present invention because it allows a user workingon a conductor line to insert the tool, create the desired spreaddistance D_(s), and does not require it to be held in place by a user,thereby leaving both of the user's hands free to perform the coupling ofa connector or other device to a conductor line. Also, because of itsconical shape, the present spreading device 10 can also be easily movedalong the length of the twisted connector lines 38 when the device 10 isat the spread distance D_(s). This further enables a user to move thedevice 10 to another location in the vicinity of initial insertion, ifnecessary, to complete a particular installation. Spreading twoconductor lines using spread device 10 increases the safety of the userbecause the user no longer needs to push or pull a wooden stake, hammerhandle, or screw-driver from between the two conductor lines exposingthe user to a substantial opportunity for losing his/her balance due todrastic changes in resistance. This feature is particularly beneficialwhen the user is suspended multiple feet above the ground while workingon live conductor lines 38.

Once the desired spread distance has been obtained using spreadingdevice 10, the user may install a connector or other device to one orboth of the two conductor lines of the twisted pair conductor. Once theinstallation is complete, the user can back out spreading device 10 byrotating body 12 of spreading device 10 about longitudinal axis 40 inthe opposite direction to that which obtained the spread distance. Oncethe two conductor lines 38 are proximate the first end 16, the spreaddevice 10 may be removed from engagement with the twisted pairconductor.

From the foregoing, it may be seen that the power line spreading deviceof the present invention is particularly well suited for the proposedusages thereof. Furthermore, since certain changes may be made in theabove invention without departing from the scope hereof, it is intendedthat all matter contained in the above description or shown in theaccompanying drawings be interpreted as illustrative and not in alimiting sense. It is also to be understood that the following claimsare to cover certain generic and specific features described herein.

1. A power line spreading device comprising: a substantially conicalbody having an outside face, a first end and a second end, said bodyhaving at least one conic spiral groove defined in said outside facefrom proximate said first end to proximate said second end; and whereinsaid second end is configured to cooperatively engage a turning devicefor turning said body.
 2. The power line spreading device according toclaim 1 wherein said turning device for turning said body is selectedfrom the group consisting of a pair of pliers, a ratchet, a socket, awrench, a pair of vise-grips, and a motorized driver.
 3. The power linespreading device according to claim 1 wherein said turning device forturning said body is a handle.
 4. The power line spreading deviceaccording to claim 1 wherein said first end is configured to be insertedbetween two power lines.
 5. The power line spreading device according toclaim 4 wherein said first end includes at least one planar surface tofacilitate insertion between two twisted power lines.
 6. The power linespreading device according to claim 4 wherein said first end includes atleast one arcuate surface to facilitate insertion between two twistedpower lines.
 7. The power line spreading device according to claim 1wherein said body is constructed of a non-conductive material.
 8. Thepower line spreading device according to claim 7 wherein said body isconstructed of a polymeric material.
 9. The power line spreading deviceaccording to claim 1 wherein said body includes a first groove definedin said outside face and a second groove defined in said outside faceadjacent to said first groove wherein said first groove and said secondgroove form a double conic spiral beginning proximate said first end andextending to proximate said second end.
 10. The power line spreadingdevice according to claim 1 wherein said groove has a depth that variesalong the length of the body.
 11. A power line spreading devicecomprising: a substantially conical body having an outside face, a firstend and a second end, said body having at least one conic spiral groovedefined in said outside face from proximate said first end to proximatesaid second end; and a handle operably coupled to said second end ofsaid body.
 12. The power line spreading device according to claim 11wherein said handle is configured for engagement with a means forturning the device selected from the group consisting of a pair ofpliers, a ratchet, a socket, a wrench, a pair of vise-grips, and amotorized driver.
 13. The power line spreading device according to claim11 wherein said handle is integral with said substantially conical body.14. The power line spreading device according to claim 11 wherein saidhandle is attachable to said second end of said substantially conicalbody.
 15. The power line spreading device according to claim 11 whereinsaid handle includes a textured portion to facilitate gripping.
 16. Thepower line spreading device according to claim 11 wherein said handleincludes a plurality of planar faces.
 17. The power line spreadingdevice according to claim 16 wherein said plurality of planar faces areconfigured to define a polygon.
 18. The power line spreading deviceaccording to claim 11 wherein said handle and said body are of unitaryconstruction.
 19. The power line spreading device according to claim 11wherein said first end is configured to be inserted between two powerlines.
 20. The power line spreading device according to claim 11 whereinsaid groove has a depth that varies along the length of the body. 21.The power line spreading device according to claim 11 wherein saidhandle is an eye configured to operably engage with a fiberglass rod ora tip section thereof.
 22. A method for separating conductor lines in atwisted pair conductor, said method comprising: inserting a power linespreading device between two twisted power lines, said power linespreading device comprising a substantially conical body having anoutside face, a first end, a second end, and a longitudinal axis passingthrough said first end and said second end, said body having at leastone conic spiral groove defined in said outside face from proximate saidfirst end to proximate said second end; engaging the power lines with atleast a portion of said at least one conic spiral groove; and applying atorsional force to said handle thereby causing rotation of said bodyabout said longitudinal axis.
 23. The method for separating twoconductor lines in a twisted pair conductor according to claim 22wherein said power line spreading device further comprises a handleoperably coupled to said second end of said body.
 24. The method forseparating two conductor lines in a twisted pair conductor according toclaim 22 wherein said body is formed of a non-conductive material.
 25. Apower line spreading device comprising: a substantially conical body ofa non-conductive material having an outside face, a first end and asecond end, said body having at least one conic spiral groove defined insaid outside face from proximate said first end to proximate said secondend; a handle of a non-conductive material, said handle being integralwith said second end of said body; wherein said first end of said bodyis configured to be wedged between two power lines; and wherein saidsubstantially conical body has a vertex angle, said vertex angle beingin a range from about five degrees to about fifteen degrees.